Mobile device with personalized content

ABSTRACT

Methods for automatically buffering and displaying video feeds associated with a live event are described. The video feeds displayed on the mobile device may comprise live video feeds or replays associated with the live event. A replay may comprise a playback of one or more buffered video feeds in a particular sequence and at a particular playback rate. The particular sequence may be determined based on the viewing behavior of the end user of the mobile device and/or the viewing behaviors of one or more other end users using other mobile devices at the live event. In some cases, the replay may comprise a shared replay in which a group of end users attending the live event may interact with each other while sharing a common replay.

BACKGROUND

The concept of delivering live video and/or audio content associatedwith a live event, such as a soccer game or a music concert, tospectators attending the live event is known. One approach uses a localtransmission station to broadcast video and/or audio content over theair to handheld electronic devices operated by individual spectators atthe live event. An end user of a handheld electronic device can thenselect a particular video or audio channel of interest on the handheldelectronic device while watching the live event. This capability allowsthe end user to select various perspectives or angles for viewing thelive event. However, one drawback of some content delivery systems isthat the end user of a handheld electronic device must be activelyengaged in determining which channels associated with the video and/oraudio content to view. Moreover, some content delivery systems do notprovide an environment in which a group of spectators at the live eventmay interact with each other and share their viewing experiences.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts one embodiment of a content delivery system fordelivering video information and/or audio information to mobile devicesat a live event.

FIG. 2A depicts one embodiment of a data processor.

FIG. 2B depicts one embodiment of a mobile device.

FIG. 3A depicts one embodiment of a bidirectional communication systemfor supporting one or more mobile devices.

FIG. 3B depicts one embodiment of a mobile device.

FIG. 4 depicts one embodiment of a map of a venue.

FIG. 5A depicts one embodiment of a mobile device.

FIG. 5B depicts one embodiment of a physical gesture for determining adirection from a mobile device.

FIG. 5C depicts one embodiment of a mobile device displaying a firstfield of view.

FIG. 5D depicts one embodiment of a mobile device displaying a firstfield of view.

FIG. 5E depicts one embodiment of a mobile device displaying a secondfield of view.

FIG. 5F depicts one embodiment of a mobile device displaying a thirdfield of view.

FIG. 5G depicts one embodiment of a mobile device displaying a fourthfield of view.

FIG. 5H depicts one embodiment of a mobile device displaying a replaydetermined by one or more other computing devices.

FIG. 6A is a flowchart describing one embodiment of a process forautomatically selecting and displaying video feeds associated with alive event.

FIG. 6B is a flowchart describing one embodiment of a process fordetermining a first video feed of a plurality of video feeds to bedisplayed on a mobile device.

FIG. 6C is a flowchart describing one embodiment of a process forautomatically buffering one or more video feeds.

FIG. 6D is a flowchart describing one embodiment of a process fordetermining a replay sequence.

FIG. 6E is a flowchart describing one embodiment of a process fordisplaying a replay sequence.

FIG. 7A is a flowchart describing one embodiment of a process forselectively buffering and displaying video feeds based on the viewingbehavior of a group of end users associated with a group of mobiledevices at a live event.

FIG. 7B is a flowchart describing one embodiment of a process forselectively buffering and displaying video feeds based on objecttracking information.

FIG. 7C is a flowchart describing one embodiment of a process sharingvideo feed information, audio information, and supplemental informationbetween mobile devices at a live event.

FIG. 8 is a flowchart describing one embodiment of a process controllinga replay sequence displayed on another mobile device.

FIG. 9 is a flowchart describing one embodiment of a process for settinga target camera or target viewing angle using a smart gesture.

DETAILED DESCRIPTION

Technology is described for automatically buffering and displaying videofeeds associated with a live event. In some cases, the video feedsdisplayed to an end user of a mobile device may be determined based onthe viewing behaviors of one or more other end users using other mobiledevices at the live event. The video feeds displayed on the mobiledevice may comprise live video feeds or replays associated with the liveevent. A replay may comprise a playback of one or more buffered videofeeds in a particular sequence and at a particular playback rate. Theparticular sequence may be determined based on the viewing behavior ofthe end user of the mobile device and/or the viewing behaviors of one ormore other end users using other mobile devices at the live event. Themobile device may automatically display a particular replay in responseto a replay triggering event. The replay triggering event may comprise amomentary pause in action occurring at the live event (e.g., after theend of a play in football or after an out in baseball). In some cases,the replay may comprise a shared replay in which a group of end usersattending the live event may interact with each other while sharing acommon replay.

A spectator attending a live event may use a mobile device to improvetheir experience of the live event. The mobile device may acquire videoinformation and/or audio information associated with the live event inreal time. The video information may be used by the mobile device topush varying perspectives of the live event to an end user of the mobiledevice in real time. The video and/or audio information may allow theend user to interact with and share different experiences and/orperspectives of the live event with other spectators at the live eventin real time. The video and/or audio information may be transmitted orbroadcast to the mobile device via a set of high-bandwidth, localwireless channels (e.g., a dedicated ultra-high frequency channel). Inone embodiment, the video information may include a plurality of livevideo feeds associated with a plurality of cameras capturing the liveevent. The video information may also include video feed supportinformation describing field of view information for each of theplurality of live video feeds.

The mobile device may simultaneously buffer a selected group of videofeeds based on predicted future use of the video feeds by the end userof the mobile device. In one embodiment, behavioral analysis of theviewing habits of a group of end users at the live event (e.g., whichcamera angles or replays are being viewed by other spectators at thelive event) may be used for selecting video feeds associated with thelive event to be automatically buffered and/or displayed. The group ofend users may be determined based on various characteristics such as aphysical location of each of the group members (e.g., each of the groupmembers may be located within a particular seating area or section at avenue), one or more common interests (as provided in user profilesassociated with each of the group members), and/or a degree of closenessassociated with a social graph or social networking graph.

In some embodiments, two mobile devices may view a shared replay byexchanging video feed identification information and replay timinginformation (e.g., synchronization information and/or replay playbackrate information) via a wireless connection between the two mobiledevices. The wireless connection may comprise a WiFi or other localwireless connection. The video feed identification information maycorrespond with one or more video feeds already buffered by the twomobile devices (i.e., in this case, the wireless connection between thetwo mobile devices may not be used for transmitting the actual videofeeds). In other embodiments, a first mobile device may publish ortransmit a replay stream to a second mobile device in real time so thatboth the first mobile device and the second mobile device may experiencethe replay stream at substantially the same time.

A venue for hosting a live event may include a plurality of cameras(e.g., TV cameras) distributed throughout the venue for capturing thelive event. The venue may comprise a particular structure (e.g., astadium or arena) or a place particularly suited for hosting the liveevent (e.g., a golf course). The live event may comprise a music concertor play. The live event may also comprise a live sporting event, such asa football game, soccer game, baseball game, tennis match, or golftournament. The cameras may comprise television broadcast cameras orhigh-resolution digital cameras. In one example, the cameras may includea 720p high-definition serial digital interface (HD-SDI) cameracapturing 60 frames per second.

The cameras may be positioned at different locations throughout a venueand/or oriented in different directions to capture varying perspectivesof a live event as the live event occurs. For example, the cameras maycapture various views at the live event such as a portion of a playingfield, sidelines, and/or spectator seating areas. In some cases, thelocation and/or viewing angle associated with a particular camera mayvary over time. For each camera at the venue, the camera's position,viewing angle, and/or other metrics for determining a field of view foreach camera may be transmitted to mobile devices throughout the venuealong with the video feeds.

FIG. 1 depicts one embodiment of a content delivery system 10 fordelivering video information and/or audio information to mobile devices.The content delivery system 10 may be used at a live event, such as alive sporting event, in order to provide real-time video information tothe mobile devices at the live event.

As depicted, the content delivery system 10 includes a head end 12,transmitters 14(1)-14(n), and mobile device 16. Although only one mobiledevice is depicted, the content delivery system 10 may support more thanone mobile device. In one example, the content delivery system maysupport over a hundred thousand mobile devices. The mobile device 16 maycomprise a handheld electronic device, such as a mobile phone or tabletPC.

Transmitters 14(1)-14(n) may send one or more wireless transmissions tothe mobile device 16. Transmitters 14(1)-14(n) may include differenttransmitters that are capable of different types of wirelesstransmissions. For example, a wireless transmission may be provided overa wireless local area network or a cellular network. The wirelesstransmission may comprise a Wireless Fidelity (WiFi) transmission,Bluetooth transmission, ultra-high frequency (UHF) transmission, or anyother wireless RF transmission. In one embodiment, transmitters14(1)-14(n) may provide unidirectional communication from transmitters14(1)-14(n) to mobile device 16. In another embodiment, transmitters14(1)-14(n) may provide bi-directional communication between the headend 12 and mobile device 16.

In one embodiment, head end 12 may transmit a plurality of live videofeeds via one or more UHF channels to mobile device 16 and transmitvideo feed support information, event flagging and location information,and/or other venue-related support information via one or more WiFichannels. In some cases, a wireless support attachment or dongle may beadded to a mobile device in order to support wireless transmission fromtransmitters 14(1)-14(n). In some embodiments, the plurality of livevideo feeds, video feed support information, event flagging and locationinformation, and other venue-related support information may betransmitted to mobile device 16 using a single wireless RF signal thatis received by a single tuner on the mobile device 16.

The bi-directional communication feature may be implemented to provideidentical or similar bandwidths over the receive and transmit links.However, in some cases, this may not be necessary since the amount ofinformation that needs to be sent from the mobile device 16 may bedifferent from the amount of information that it needs to receive. Forexample, the mobile device 16 may need to send far less information thanthat it receives. The implementation using a cellular network is anexample that would provide a sufficient bandwidth over the transmitlink. By “cellular” network it is meant a network that uses a series ofcells having a limited geographical extent within which communicationservices are available. In one possible form of implementation, suchcells can be arranged to provide a hand-off to moving mobile devices,such as mobile device 16, moving outside a cell and entering a new cell,the communication services as seamlessly transferred from one cellinfrastructure to another cell infrastructure. The “cellular” networkterminology encompasses both communication infrastructures usinglicensed bandwidth, such as typical cellular telephones based on CodeDivision Multiple Access (CDMA), Time Division Multiple Access (TDMA),Groupe Station Mobile (GSM), or other technologies, and communicationinfrastructures using unlicensed bandwidth, such as Wireless Fidelity(WiFi) that is used commonly to provide wireless access to computernetworks. Another possible example of a suitable technology is the socalled “Bluetooth” protocol that provides very short range wirelesscommunication capabilities.

The cellular link allows the mobile device 16 to transmit informationover a relatively limited bandwidth; however, in most cases the amountof information that needs to be sent is low such that availablebandwidth should suffice. On the other hand, the receive link has ahigher bandwidth in order to accommodate the multiple video streams andthe other data that is to be sent to the mobile device 16. Also, thecellular link (as well as other wireless links) may allow mobile devicesto transmit information independently from one another.

The head end 12 includes a map generator 1801 that generates a map ofthe venue. The map may include a 3D model of the venue. The map of thevenue may include camera locations and/or camera orientations relativeto the 3D model. The head end 12 includes a feed vector generator 1802that generates video feed vectors. Each video feed transmitted from thehead end 12 may correspond with a particular video feed vectordescribing a field of view or a viewing direction associate with thevideo feed. Each video feed vector may be specified relative to a 3Dmodel of the venue. The head end 12 includes a data processor 1822 thatgenerates and combines the outputs of the head end 12.

The head end 12 receives content that originates from various sources.The content can be formatted or edited before being input into the headend 12. As depicted, a number of content sources may be used. There aremultiple video feeds (or streams) 31 that originate from cameras locatedat a venue. The different cameras may simultaneously capture differentimages (or video) of the same live sporting event and output videoinformation making up the respective video feeds 31. Multiple audiofeeds (streams) 32 may also be provided, where each audio feed 32 (or asubset of audio feeds) is associated with a video feed 31. An audio feed32 conveys audio information such as the noise picked up by a microphoneat a location at which the associated camera is placed, or an audiocommentary. Such audio commentary can be the speech picked up by amicrophone from a commentator or any individual that appears in one ormore of the video feeds.

The content sources also include real time data content 35. The realtime data content 35 conveys information relating to the event. Forexample, the real time data content in the context of motor sports, suchas a car race, can be time and ranking information, lap times, positionof the various cars on the track, physiological information about adriver, among many others. Examples of real time data for a footballgame include time remaining score, box score information, playerscurrently on the field, list of plays run by each team, etc. In somecases, the real time data content 35 may be used to determine whichvideo channels to buffer in a mobile device.

The video feeds 31 and the audio feeds 32 may be edited at a contentproduction station 20. The content production station 20 provides afacility where an operator can format or edit the raw content to make itmore suitable for presentation to the audience. The content productionstation 20 includes a console that allows the operator to conduct thenecessary content editing operations. As depicted, the head end 12receives seven different inputs.

Examples of various inputs 100-700 will now be described. Note that theinputs 100-700 may come from a wide variety of sources. It is notrequired that the inputs 100-700 come from the same source. The firstinput, designated by reference numeral 100 includes the multiple editedor unedited video feeds that may be transmitted according to a SerialDigital Interface (SDI) format, or another format. Note that the videofeeds might come from different sources. For example, some video feedsmight come from a national television network that is covering afootball game, others might come from a local television networkcovering the football game, and still others might come from atelevision network that is covering a different football game. Thesecond input 200 includes the multiple edited or unedited audio feeds 32that are associated with respective video feeds 31. The third input 300includes the independent audio feeds 33. An independent audio feed 33may convey voice conversations or audio commentaries picked up by aradio scanner 15 or other type of sensor.

The fourth input 400 includes the real time data content 35 that may betransmitted digitally to the head end 12. In one example, the real timedata content includes information relating to the live sporting event,such as for example scoring and participant ranking information, amongothers. In the specific example of a car racing event, the real-timeinformation can include: the current ranking (e.g., first place, secondplace, etc.), number of laps remaining, participants still in the race,participants no longer in the race, fastest lap of the current leader orof anyone of the participants, average speed of the current leader or ofanyone of the participants, present speed of any one of theparticipants, Revolutions Per Minute (RPM) of the engine of anyone ofthe participants, or the engaged gear in the transmission of any one ofthe participants. In the context of a football game the real time data35 may include the present score, the time remaining, penalties, numberof time outs left, plays run, participants on the field, current downand distance to go for a first down.

The fifth input 500 includes authentication data received from anauthentication database 502. The sixth input 600 includes ancillarycontent that is output from an ancillary information database 602. Theancillary content 600 can be in the form of video, audio or data, suchas text for display to the spectator. Examples of ancillary contentincludes, advertisement content, venue or event related contextualcontent, news, weather, and shopping information.

The ancillary content 600 can be obtained from a wide variety ofsources. The advertisement, shopping, venue or event related informationcan be recorded on any suitable medium and injected in the video/audiocontent at the head end 12. Specifically, the advertisement, shopping,venue or event related information could be digitally stored on adatabase 602. The output of the database 602 leads to the head end 12such that the video/audio content in the database 602 can be injected inthe video/audio content that is being broadcast to mobile devices, suchas mobile device 16. The Internet 302 (or other global network) isanother source of ancillary content. Specifically, the news service canbe delivered from the Internet and injected in the video/audio contentthat is being broadcast from the head end 12.

The seventh input 700 includes service data. The service data resides ina database 702. This database can also connect to the Internet to obtainupdates or program releases that may not be available prior to thebeginning of the event being serviced by the system 10. An example ofservice data includes, but is not limited to, data for setting thesoftware running one or more handheld electronic devices. For example,the service data may be used to upload an entirely new or portions of aGraphical User Interface (GUI) to one or more handheld electronicdevices, such as mobile device 16, in order to customize the handheldelectronic devices for the event.

FIG. 2A depicts one embodiment of a data processor, such as dataprocessor 1822 of the head end 12 of FIG. 1. The head end 12 organizesthe data from various inputs into a structured information stream forbroadcasting to the various electronic devices, such as mobile device 16in FIG. 1. In one embodiment, all of the video, audio and data aretransmitted to mobile devices in a single RF transmission/signal. Notethat it is not required that all of the data be transmitted in the sameRF transmission. For example, the video, audio, and data can be sent indifferent wireless transmissions. For example, the video might be sentin one wireless transmission and the separate audio streams sent in adifferent wireless transmission. The head end 12 includes a videoprocessor 40, an audio processor 42, a control entity 44, and amultiplexer 46. The control entity 44 may be implemented using one ormore computing devices running one or more software programs to carryout various tasks. The one or more computing devices may provide aGraphical User Interface that provides an operator with the ability tosend commands to the control entity 44 or to receive informationtherefrom. The GUIs can take various forms. For instance, a GUI caninclude a display on which information is shown to the operator and akeyboard and mouse combination for data and commands entry.

In some implementations, the video processor 40, audio processor 42and/or MUX 46 are implemented by a software program or set of softwareprograms that execute on one or more processors. In someimplementations, the control entity 44 is implemented at least in partwith hardware. For example, an application specific circuit (ASIC) maybe used to implement the control entity 44. The video processor 40,audio processor 42, and MUX 46 may also be implemented with an ASIC,custom integrated circuit, or other hardware. Video processor 40 andaudio processor 42 can also be implemented using microprocessors knownin the art. In some embodiments, video processor 40, audio processor 42,control entity 44, and mux 46 can be implemented as separate computers,each having their own microprocessor. In other embodiments, two or moreof the components can be implemented on a common computer.

Control entity 44 receives supplementary information 800 (e.g., videofeed support information, event flagging and location information,and/or other venue-related support information) such that it may pass itto the MUX to insert into the RF transmission with other inputinformation (e.g., inputs 100, 200, 300, 400, 500, 600, and 700). Someof the information (e.g., video feeds 100, audio feeds 200) may bedirected to the appropriate encoders for processing. For example, allthe video feeds that are received at the first input of the controlentity 44 are switched to a video processor 40 that will convert the SDIformat (or other format) into Moving Picture Experts Group (MPEG)—4format. Note that the video processor 40 could convert the input videointo a format other than MPEG-4. Each video stream may be compressed toprovide at a handheld electronic device a moving image at 30 Frames persecond (fps), 16 bit colors at a 480×272 pixels resolution (or otherresolution). In one example, the resulting bit rate may be 384Kbits/sec. However, other frame rates, bit rates, and resolutions couldbe used. Since the video processor 40 may handle multiple video feedssimultaneously it may be designed in order to be able to process thosefeeds in parallel. One implementation uses a plurality of encoderstations, each being assigned a video feed 31. The encoder stations canbe based on dedicated video processing chips or purely on software, or acombination of both. Alternatively, the video processor 40 can use asingle processing module with buffering capabilities to sequentiallyhandle blocks of data from different video feeds 31. With an adequatesize buffer and a processing module that is fast enough, all the videofeeds 31 can be encoded without causing loss of data.

In one embodiment, the outputs of the control entity 44, the videoprocessor 40, and the audio processors 42, are passed to a multiplexer46 that combines the data into one common data stream. In one example,time multiplexing can be used. The data stream may then be directed to atransmitter, such as transmitter 14(1)-14(n) of FIG. 1, that produces asingle wireless RF transmission broadcasting the information to thevarious mobile devices. In some cases, a transmitter may be designed touse a single 6 MHz contiguous channel bandwidth to broadcast the entirepayload to the various mobile devices. The bandwidth might also be 7MHz, 8 MHz or another bandwidth. Note that it is not required that thedata be sent in a contiguous channel bandwidth. For example, the videoand audio may be sent in non-contiguous channels of the same type of RFtransmission. However, note that it is not required that the video,audio, and data be sent in the same type of RF transmission. As anexample, the video channels might be sent in 6 MHz channel (or someother bandwidth) with other data (e.g., separate audio channels or otherdata) being sent in a Wi-Fi transmission or cellular transmission. Notethat video, audio, and other data may be sent in more than two differenttypes of wireless transmissions.

As mentioned, the data stream may be compliant with the MPEG-4 protocol,but that is not required. In some aspects, the data stream has a digitalcontainer format that encapsulates packetized elementary streams andother data. In some aspects, a packet is the basic unit of data in thetransport stream. As an example, a packet could be 188 bytes in length;however packets can include more or fewer bytes depending on theprotocol in use. Each packet may include a Packet Identifier (PID),which in some implementations is a 13-bit value. In some aspects, eachvideo stream is an elementary stream that is broken into a number ofpackets. Each of the packets in an elementary video stream may be giventhe same PID. Therefore, when the handheld device receives the RFtransmission, the device may extract a certain video stream by lookingfor packets with a certain PID. An audio stream may also constitute anelementary stream in which all packets of a given audio stream areassigned the same PID. Packets associated with data other than video andaudio may also have PIDs.

In one embodiment, the control entity 44 sends information to thehandheld devices that identify which of the video channels should bebuffered. In one embodiment, the control entity 44 sends commands to thehandheld electronic devices that tell the handheld devices whether tobuffer only the video stream or both the audio and the video stream of avideo channel. These commands may be inserted into the wireless RFtransmission.

FIG. 2B depicts one embodiment of a mobile device 16. The mobile device16 may be a handheld electronic device that receives video and/or audioinformation sent by transmitters 14(1)-14(n) of FIG. 1. The videoinformation may be displayed on the display 118 and the audioinformation may be presented via an audio speaker 124 (e.g.,headphones). A spectator can control the selection of video channels aswell as to perform other operations. A video channel may include videoinformation, or a combination of video information and audioinformation.

Mobile device 16 has a processor 101 that executes software forcontrolling the various functions of the mobile device 16. In oneexample, the data for setting the GUI in the mobile device 16 may besent wirelessly from a transmitter that is used to send the wireless RFtransmission conveying the payload (e.g., video information and audioinformation). In one example, the data for effecting the GUI setting issent during a window of operation that precedes the beginning of thetransmission of the video streams. For instance, in the context of motorsports, such as a car race, this can be done before the race eventstarts. In another example, the data for setting the GUI is sent alongwith the payload. As far as the mobile device 16 is concerned, after thedata for configuring the GUI is received it is loaded such that thespectator will be presented with the new GUI. When an authenticationprocess is required to allow the mobile device 16 to access the videostreams, the actual loading of the new GUI can be deferred until theauthentication has been completed. In one example, a LINUX kernel isused to provide common core services, such as memory management, taskscheduling and user interfacing, among others. Other operating systemsmay also be used. In some cases, the algorithms to decode the video andaudio information broadcasted by a transmitter may be implemented inhardware, software, and/or a combination of hardware and software.

Software for operating the mobile device 16 may be stored in a memory102. Memory 102 may comprise a computer readable storage device. Thememory 102 may include a Read Only Memory (ROM) portion that includesdata intended to be permanently retained such as the program code thatthe processor 101 executes. In addition, the memory 102 may also includea Random Access Memory (RAM) portion that temporarily holds data to beprocessed. The memory 102 can be implemented as a single unit, forinstance as a semiconductor-based module or may include a combination ofa semiconductor-based module and a mass-storage device, such as ahard-drive. A computer readable storage device can be any availablestorage device that can be accessed by the electronic device. A computerreadable storage device includes volatile and nonvolatile, removable andnon-removable media implemented in any method or technology for storageof information such as computer readable instructions, data structures,program modules or other data. Computer readable storage devices mayinclude RAM, ROM, EEPROM, flash memory or other memory technology,CD-ROM, digital versatile disks (DVD) or other optical storage, magneticcassettes, magnetic tape, magnetic disk storage or other magneticstorage devices, or any other storage device which can be used to storethe computer readable instructions and which can accessed by theelectronic devices.

User interface 801 allows the spectator to control the operation of themobile device 16. The user interface 801 may include a physical orvirtual keypad. The number and type of keys forming the keypad may be amatter of choice depending upon the specific application. As a possiblevariant, a touch sensitive screen or a voice recognition capability maybe used to replace or to supplement data entry via the keypad.

The mobile device 16 has a wireless RF receiver 110 and demodulator thatsenses the wireless RF transmission, demodulates it and delivers it asproperly organized and formatted data blocks to a data bus 112. The datasent over the data bus 112 may be made available to the memory 102 andthe processor 101. In one example, the wireless RF receiver 110 anddemodulator operates in the Ultra High Frequency (UHF) range,specifically in the sub range of 470 MHz to 806 MHz. A 6 MHz contiguousbandwidth (equivalent to one regular TV channel) is sufficient totransmit the exemplary payload indicated earlier. Alternatively, thetransmission may also be made in the 2.5 GHz range or another range.Thus, the mobile device 16 is not limited to any particular frequencyrange. In one embodiment, the wireless RF receiver may include one tunermechanism that is permanently tuned to one frequency. The signalreceived at that frequency may include various video channels, which areextracted and communicated to the memory 102 and the processor 101 forprocessing as described herein. A tuner may comprise a component (e.g.,electrical circuit) which passes one radio frequency, or band offrequencies, and excludes others. A tuner may perform the process ofselecting the desired signal. In some embodiments, a tuner may beadjustable.

The mobile device 16 includes a transceiver 99 that is capable ofbi-directional communication. For example, the transceiver 99 may beable to communicate over a cellular telephone network so that mobiledevice 16 receives the video channels over the cellular network. In someembodiments, transceiver 99 may include a single tuner that receives theappropriate single cellular signal. In one embodiment, the transceiver99 communicates over a WiFi network.

Video processor 40 may include a video decoder to perform the decodingof the video channels received from the wireless RF receiver anddemodulator 110. For clarity it should be mentioned that while thespecification refers to the decoder as “video” decoder it also performsaudio decoding on the audio information associated with the videostreams. The video processor 40 may include a memory in the form of abuffer that will hold undecoded video/audio information representing acertain duration of video channel presentation. For instance the size ofthe buffer may be selected such that it holds 5 minutes of video channelpresentation, for each channel or a subset of channels. In use, thevideo/audio information not yet decoded that is received from thewireless RF receiver and demodulator 110 is sent over the data bus 112to the video processor 40. The video processor 40 decodes thevideo/audio information and then directs it to a display screen 118 tobe viewed by the spectator. At the same time the undecoded video/audioinformation is directed to the memory buffer that starts to fill. Whenthe memory buffer is completely filled, it may start overflowing suchthat only the last “n” minutes of the video channel are retained. Thesame operation may be performed on every video channel, with theexception that only the video channel the spectator wants to watch isbeing decoded and directed to the display screen 118. Accordingly, thememory buffer may be segmented in the functional sense into partitions,where each partition is associated with a different video channel. Inother embodiments, video buffer can include multiple memory chips, witheach memory chip buffering a different video stream. Note that it is notrequired that every video channel be buffered at all times. In someimplementations, the head end provides information that informs themobile device which video channels should be buffered. In someembodiments, the determination of which video channels to buffer is madeat the mobile device 16.

The audio stream that is associated with the video channel being watchedmay be decoded, converted into an analog format, amplified and directedto audio speaker 124 (e.g., headphones) such that the spectator canwatch the video stream on the display screen 118 and hear the audiosimultaneously.

The ability to retain the last “n” minutes of video channel provides thespectator with interesting possibilities. For instance, the spectatorcan manipulate the data in the memory buffer 27 so as to “playback” acertain video channel content, create fast forward motion, “rewind”motion and record the video/audio information in the memory buffer 27.Moreover, the spectator can see any action that may have been missed byswitching channels and then “rewinding” the content of the memory buffer27 associated with the newly selected channel.

The mobile device 16 is capable of generating recording tables thatdefine which video streams are to be buffered in the video buffer 27and/or which audio streams are to be buffered in audio buffer 29. In oneembodiment, audio buffer 29 is partitioned into multiple buffers forseparately buffering different audio streams. There is also a databuffer 2429 for buffering data other than video and audio from the RFtransmission.

In addition, the spectator can create “bookmarks” to identify a portionof a video feed that they may wish to revisit. A “bookmark” marks alocation in the video stream. For instance a “bookmark” can be in theform of a pointer to a specific address of a video feed stored in thebuffer. When accessing a bookmark it thus suffices to present the videocontent starting from the address to which the bookmark points to.

Such “bookmarks” may be created by a spectator by selecting an optionprovided in one of the GUI menus of the user interface. The spectatornavigates the menu by operating keys on the keyboard. Those keys may bearrow keys or any other suitable keys. When a selection has been made,the choice or option can be activated by pressing any suitable key suchas an “enter” key.

In some embodiments, memory buffer 27 is in the form of a semiconductorbased memory (e.g., RAM, flash memory, etc.). In applications wherelarge memory capacity is required in order to store a large videocontent, a storage device such as a hard drive can be used. Asmentioned, buffer can be one large memory chip, or multiple chips. Thememory buffer 27 may comprise a multi-port memory (e.g, a dual-portmemory) that allows both reads and writes to occur at the same time.

The display screen 118 can be of any suitable type. One possibility isto use a 4.2 in diagonal transreflective Thin Film Transistor (TFT)screen capable of rendering 480×272 pixel resolution images with 16 bitcolor depth. Other display types can be used. Optionally, the mobiledevice 16 can be provided with a lighting system (not shown in thedrawings) using Light Emitting Diodes (LEDs) to facilitate viewing underlow light level conditions. The display screen could also be a liquidcrystal display (LCD). In some embodiments, the display screen 118 alsoserves as a user input. For example, the display screen 118 may be touchsensitive such that the user can select a menu item simply be touchingwith a finger or other object. In one embodiment, the user can slide afinger over the video to command mobile device 16 to rewind or fastforward the video.

The mobile device 16 includes buffer write control 104 and buffer readcontrol 108. The buffer write control 104 may include circuitry forcontrolling the writing of data to one or more video feed buffers, suchas video buffer 27. The one or more video feed buffers may comprisemulti-port memories that allow for both reads and writes to be performedat substantially the same time. The buffer write control 104 may receiveone or more identifications of video feeds to buffer, as well as videofeed support information to be buffered along with each of the videofeeds identified. The buffer write control 104 may utilize writepointers corresponding with one or more locations in each of the one ormore video feed buffers associated with a current recording time. Thebuffer read control 108 may include circuitry for controlling thereading of data from the one or more video feed buffers, such as videobuffer 27. The buffer read control 108 may utilize read pointerscorresponding with one or more locations in each of the one or morevideo feed buffers associated with a previous recording time.

In some embodiments, over time, the buffer write control 104 and bufferread control 108 may vary the number of video feeds being buffered basedon power and/or energy considerations. The buffer write control 104 andbuffer read control 108 may also vary the number of video feeds beingbuffered in order to provide a longer buffer history (i.e., a trade-offmay be made between buffering a large number of video feeds for arelatively shorter amount of time and buffering a smaller number ofvideo feeds for a relatively longer amount of time). In one embodiment,when the sound volume of a crowd of spectators at the live event exceedsa particular threshold, then the number of video feeds being bufferedmay be increased (i.e., the excitement level of the crowd may warrantthe buffering of a larger number of video feeds at the expense of ahigher power and energy consumption). In another embodiment, the numberof video feeds being buffered may be increased when a live sportingevent reaches a particular milestone (e.g., the two minute warning infootball or the ninth inning in baseball).

FIG. 3A depicts one embodiment of a bidirectional communication systemfor supporting one or more mobile devices. Assume for the sake of thisexample that a set 100 of handheld devices including mobile device 16are located at a live sporting event (e.g., a football game). Thehandheld devices all receive the wireless RF transmission from the headend 12 via a broadcast transmission (e.g., a UHF transmission) or via acellular transmission. The handheld electronic devices can alsocommunicate individually with the head end 12 via a cellular network. Inthis example, the cellular network has two cellular towers 104 and 106located away from one another such as to provide adequate receptioncoverage from any of the handheld devices at the live sporting event.Each handheld device may be provided with the functionality allowing itto establish communication with a computer network, such as Internetnetwork 302. Another possibility that can be used instead of a cellularnetwork is a WiFi network or any other cellular type infrastructureallowing individual wireless communication to take place between eachhandheld device and a remote entity, such as server 108. In practice,the amount of information that needs to be sent from the individualhandheld electronic devices is less than the amount of data carryingcapacity of the wireless RF transmission from the head end 12.

FIG. 3B depicts one embodiment of a mobile device 16. As depicted, themobile device 16 includes user input keys 306, which allow the user tocontrol the playback of video on the display screen, access bufferedaudio/video/data, and provide other user input. The display screen iscurrently showing a menu 305 that allows the user to select differentvideo steams for viewing. For example, a user at a football game couldselect to watch a video channel from an end-zone camera, a 50-yard linecamera, a goal post camera, etc. User input keys 307 may be used toselect which video channel from the menu to display, as well as otherfunctions.

In some embodiments, the different video channels are buffered so thatthe user can replay the content of a video buffer. For example, the userinput keys 306 may be used to rewind, fast forward, pause, play, andslow step through the content of the video buffer. In some embodiments,the video buffers store different camera angles of the same action. Forexample, at least some of the video buffers might include differentcamera angles associated with a replay challenge in a football game.Thus, the user can replay the different camera angles while the replaychallenge is taking place to decide for themselves which team should winthe challenge.

It should be noted that although a dedicated mobile device has beendisclosed, the technology described herein may be implemented as anapplication running on a smart phone, tablet PC, or other mobilecomputing device. In some cases, a mobile computing device may beaugmented with a wireless dongle to provide the ability to acquirewireless transmissions from a head end.

FIG. 4 depicts one embodiment of a map of a venue. As depicted, the mapmay comprise a three-dimensional model of the venue including a playingsurface 402, spectator seating 410, and camera locations A-Z. Each ofthe camera locations A-Z may be associated with a feed vector thatdescribes a direction or angle being captured by a particular camera.Each of the camera locations A-Z may also be associated with a field ofview width, a field of view height, and/or one or more viewing angles,which along with the feed vector may be used to describe the field ofview captured by a particular camera. In some cases, the location and/orviewing angle associated with a particular camera may vary over time, atwhich point an updated map of the venue may be transmitted to mobiledevices at the venue.

As depicted, camera 404 at camera location S is associated with a feedvector 406 and a field of view width 408. A three-dimensional map mayinclude a plurality of cameras and each camera of the plurality ofcameras may be associated with a three-dimensional location relative tothe three-dimensional map and a three-dimensional feed vector relativeto the three-dimensional map. Locations for various landmarks, such asend zones, goal posts, yard lines, bullpens, dugouts, may also beprovided. In some cases, the map of the venue may comprise atwo-dimensional map.

FIG. 5A depicts one embodiment of a mobile device 16. As depicted,mobile device 16 comprises a mobile computing device and includes atouchscreen display 577. The touchscreen display 577 may include an LCDdisplay for presenting a user interface to an end user of the mobiledevice 16. The touchscreen display 577 includes a status area 552 whichprovides information regarding signal strength, time, and battery lifeassociated with the mobile device 16. As depicted, a two-dimensional map564 of a venue is presented to the end user of mobile device 16. Thetwo-dimensional map 564 includes a current location 562 of the mobiledevice 16 within the venue. The current location 562 may correspond witha GPS location of the mobile device 16. In some cases, the GPS locationmay be determined using a pseudolite-only system or a hybridpseudolite-GPS system including one or more ground-basedpseudo-satellite transceivers. The current location 562 of the mobiledevice 16 may also be determined using WiFi triangulation. In somecases, the current location 562 may be transmitted to a local server atthe venue in order to enable various venue-related services (e.g., foodor concierge services).

As depicted, the two-dimensional map 564 also includes a source point566 and a target point 570. The source point 566 corresponds with adesired camera location and the target point 570 corresponds with atarget location within the venue to be viewed from the desired cameralocation. The source point 566 and the target point 570 determine arequested vector 568. In one embodiment, the end user of mobile device16 may specify the source point 566 and the target point 570 by touchingthe touchscreen display 577 at a first point corresponding with thesource point and dragging their finger along the surface of thetouchscreen display and stopping at a second point corresponding withthe target point. In another embodiment, the source point 566 maydefault to the current location 562 of the mobile device 16 and thetarget point 570 may default to a location associated with a trackedobject at the venue (e.g., a ball). In some embodiments, a first videofeed associated with a first feed vector may be displayed on mobiledevice 16 if the first feed vector is the best match to the requestedvector 568.

The end user of mobile device 16 may control the determination of asource point using a select source option 575. The source point maycorrespond with a particular camera at the venue. In one example, thesource point may be determined by performing a physical gesture withmobile device 16. In another example, the source point may be determinedusing an audio command (e.g., an end user stating “select end zonecamera” or “select left field camera”). The end user of mobile device 16may control the determination of a target point using a select targetoption 576. The target point may correspond with a particular object inthe live event such as a ball or player participating in the live event.In one example, the target point may be determined by performing aphysical gesture with mobile device 16. In another example, the targetpoint may be determined using an audio command (e.g., an end userstating “select ball” or “select end zone”).

In some embodiments, the current location 562 may be used to identifylabels associated with various landmarks within the venue (e.g., theleft end zone or north end zone). The current location 562 may also beused to identify labels associated with various cameras at the venue(e.g., the north end zone camera). The current location 562 may also beused to configure directions from the current location 562 (e.g.,directions to the closest restroom). The current location 562 maycorrespond with a three-dimensional point relative to athree-dimensional model of the venue. In some cases, a GPS location isused to provide a two-dimensional location within the venue and then athree-dimensional model of the venue may be used to infer a heightcoordinate relative to the three-dimensional model (i.e., assuming thata particular mobile device is located in a venue seating section). Inmany venues, the height coordinate may be inferred from the GPS locationas there may only be a single spectator seat corresponding with the GPSlocation.

FIG. 5B depicts one embodiment of a physical gesture for determining adirection 578 from a mobile device 16. As depicted, a direction ordirection vector may be determined by an end user holding mobile device16 and performing a particular physical gesture such as flicking themobile device 16 forward by particular amount. The direction vector maycorrespond with a three-dimensional vector relative to a map of thevenue with a starting point corresponding with a GPS location of themobile device 16 and a direction orthogonal to the surface of the mobiledevice 16 pointing away from the end user. Other physical gesturesutilizing the mobile device 16 may also be used for determining arequested direction or for selecting a particular object within thevenue. A particular object may include a camera, a player or actorcontributing to the live event, or a landmark within the venue.

Referring to FIG. 5A, mobile device 16 may display a video feeddetermined by another computing device. As depicted, mobile device 16,when in display mode, will be controlled by a second computing deviceassociated with a second end user 572 with an end user identifier of“Adam_(—)123.” The select another view option 574 allows an end user ofmobile device 16 to determine a controlling (or master) computing devicethat will dictate the video feeds displayed on mobile device 16. Theselect my view option 573 allows an end user of mobile device 16 tocontrol the video feeds displayed on mobile device 16 themselves.

FIG. 5C depicts one embodiment of a mobile device 16 displaying a firstfield of view 590. In some cases, an object within a field of view, suchas ball 589, may be highlighted to enable easier viewing by an end userof the mobile device. The first field of view 590 may correspond with alive video feed of the live event or a replay.

FIG. 5D depicts one embodiment of a mobile device 16 displaying a firstfield of view 590. As depicted, a second field of view 592 correspondingwith a second computing device (e.g., currently being displayed by thesecond computing device) and a third field of view 593 correspondingwith a third computing device are highlighted. In one embodiment, an enduser of mobile device 16 may select a different field of view using thetouchscreen interface of mobile device 16. In one example, the end usermay zoom-in or zoom-out by applying finger gestures to the touchscreeninterface of mobile device 16. The end user may zoom-in or zoom-out witha live video feed or a buffered video feed associated with a replay.

FIG. 5E depicts one embodiment of a mobile device 16 displaying a secondfield of view 592. As depicted, the second field of view 592 correspondswith a region (or subset) of the first field of view 590. An eventlocation marker 588 corresponding with a location within a venueassociated with a particular event may be transmitted to mobile device16 via a head end, such as head end 12 of FIG. 1, or via a secondcomputing device wherein a second end user of the second computingdevice may place the location of the event location marker 588. In oneembodiment, an event location marker may be selected as a target pointwithin the venue.

FIG. 5F depicts one embodiment of a mobile device 16 displaying a thirdfield of view 593. As depicted, the third field of view 593 correspondswith a region (or subset) of the first field of view 590. A sharedcomment 587 generated by a second end user (i.e., the comment “WideOpen!” with an arrow pointing to a particular player) may be transmittedto mobile device 16 and displayed. A shared comment may be bound to aparticular location within the venue or to a particular video feedduring a particular period of time. For example, during a replay after apenalty occurring at a live sporting event, the second end user maycause a shared comment to be displayed on mobile device 16 during aportion of the replay time period.

FIG. 5G depicts one embodiment of a mobile device 16 displaying a fourthfield of view 595. As depicted, the fourth field of view correspondswith a different viewpoint than the first field of view 590. In oneembodiment, a replay may be automatically displayed to an end user ofmobile device 16 after a replay triggering event. The replay triggeringevent may correspond with a break or pause in action occurring at thelive event. In one example, the replay triggering event may be indicatedvia a replay flag transmitted from a head end, such as head end 12 andFIG. 1. In another example, the replay triggering event may bedetermined based on a game clock being stopped or started. In anotherexample, the replay triggering event may comprise the sound of aparticular sound (e.g., the sound of a whistle).

As depicted, a replay corresponding with a replay time period of twominutes (i.e., 1:25+0:35) is displayed on mobile device 16. An end userof mobile device 16 may adjust a time associated with the replay timeperiod using time adjustment bar 596. The end user may end the replayand view a live video feed by selecting the present time option 598. Theend user may force a predetermined replay time period (e.g., a 30 secondtime period) by selecting the replay time option 597. In one embodiment,at any point in time the end user of mobile device 16 may zoom-in orzoom-out a particular video feed being displayed on the mobile device16.

FIG. 5H depicts one embodiment of a mobile device 16 displaying a replaydetermined by one or more other computing devices. In one embodiment,the one or more other computing devices comprise a second computingdevice that may act as a controlling (or master) computing device fordetermining the replay sequences displayed on mobile device 16. Inanother embodiment, the replay sequence may be determined based on theviewing preferences associated with a plurality of other computingdevices (e.g., the replay sequence may comprise a sequence of videofeeds based on a majority vote of the video feeds viewed by theplurality of other computing devices). The replay sequence may bedetermined locally on mobile device 16 or by a server in communicationwith the plurality of other computing devices and transmitted to mobiledevice 16. If the automatic replay allows for the replay to not besynchronized with the plurality of other computing devices, then an enduser of mobile device 16 may adjust a time associated with the replaytime period using time adjustment bar 596.

FIG. 6A is a flowchart describing one embodiment of a process forautomatically selecting and displaying video feeds associated with alive event. In one embodiment, the process of FIG. 6A is performed by amobile device, such as mobile device 16 in FIG. 1.

In step 602, a map of a venue associated with a live event is acquired.The map may be acquired from a transmission broadcast periodically froma head end, such as head end 12 in FIG. 1. The map may comprise athree-dimensional model of the venue. In step 604, a plurality of videofeeds of the live event is acquired as the live event occurs. Each videofeed of the plurality of video feeds may be associated with a particularcamera (per a camera identifier), a particular location of theparticular camera relative to the map, and a feed vector that describesa direction or angle being captured by the particular camera relative tothe map.

In step 606, a first video feed of the plurality of video feeds to bedisplayed is determined. The first video feed may correspond with thevideo feed of the plurality of video feeds that best approximates (orfits) a requested viewing vector as requested by an end user of a mobiledevice, such as mobile device 16 of FIG. 1. The end user may specify therequested viewing vector using a touchscreen interface on the mobiledevice. One embodiment of a process for determining a first video feedis described later in reference to FIG. 6B.

In step 608, one or more video feeds of the plurality of video feeds areautomatically buffered. The one or more video feeds may include thefirst video feed determined in step 606. The one or more video feeds maycomprise a subset of the plurality of video feeds. In one embodiment,the one or more video feeds may be determined based on the viewingbehavior of an end user of a mobile device and/or the viewing behaviorsof a group of other end users using other mobile devices at the liveevent. In another embodiment, the one or more video feeds may bedetermined based on complementary feed vectors. In one example, thecomplementary feed vectors may correspond with cameras at a venue thatprovide a different angle to a target point within the venue (e.g.,cameras corresponding with or best matching a 90 degree angle, 180angle, and 270 angle from a camera angle currently viewed on a mobiledevice). One embodiment of a process for automatically buffering one ormore video feeds is described later in reference to FIG. 6C.

In some cases, the one or more video feeds of the plurality of videofeeds may be automatically buffered while a mobile device is displayinga replay of a buffered video feed. More information about bufferingvideo feeds can be found in U.S. Pat. No. 8,042,140, entitled “BufferingContent on a Handheld Electronic Device,” issued Oct. 18, 2011, which isherein incorporated by reference in its entirety.

In step 610, it is determined whether a replay triggering event has beendetected. If a replay triggering event has been detected, then step 612is performed. Otherwise, if a replay triggering event is not detected,then step 618 is performed. In one embodiment, a replay triggering eventmay be detected by a mobile device and in response a replay may bedisplayed on the mobile device. The replay triggering event maycorrespond with a break or pause in action occurring at the live event(e.g., after the end of a play in football or after an out in baseball).In one example, the replay triggering event may be indicated via areplay flag transmitted from a head end, such as head end 12 and FIG. 1.In another example, the replay triggering event may be determined basedon a game clock being stopped or started. In some cases, the game clockmay be transmitted to a mobile device via the head end. In anotherexample, the replay triggering event may comprise the sound of aparticular sound (e.g., the sound of a whistle). The replay triggerevent may cause a replay sequence to be displayed on a mobile deviceautomatically without intervention (e.g., a replay request) by an enduser of the mobile device.

In some embodiments, the replay triggering event may be used toautomatically push a replay from an out-of-town game. The replay fromthe out-of-town game may be determined based on user preferencesassociated with an end user of a mobile device and/or user preferencesassociated with a group of end users at the live event. In one example,a user preference may specify a preference for a favorite team and thereplay from the out-of-town game may involve members of the favoriteteam. In some cases, user preferences may be inferred based on websearches performed by end users at the live event.

In step 612, a replay time frame is determined. The replay time framemay be preset to a predetermined time (e.g., 30 seconds prior to thereplay triggering event). The replay time frame may depend upon thereplay triggering event detected. For example, the replay time frame fora replay corresponding with the end of a play in football may be 30seconds, while the replay time frame for a replay corresponding with theend of a quarter in football may be 1 minute. In some embodiments, thereplay time frame may be determined by a second computing device incommunication with the mobile device used by the end user.

In step 614, a replay sequence is determined. The replay sequence maycomprise a particular sequence of buffered video feeds. Each of thevideo feeds in the particular sequence may be identified via a videofeed identifier and correspond with a particular time period within thereplay time frame. For example, the replay time frame may comprise a 30second time window prior to a current time and the replay sequence maycomprise a first video feed associated with the first 15 seconds of the30 second time window and a second video feed associated with the last15 seconds of the 30 second time window.

In some embodiments, the particular sequence and a correspondingplayback rate may be determined based on the viewing behavior of the enduser of the mobile device and/or the viewing behaviors of a group ofother end users using other mobile devices at the live event. Oneembodiment of a process for determining a replay sequence is describedlater in reference to FIG. 6D.

In step 616, the replay sequence is displayed. The replay sequence maybe displayed on a display of a mobile device, such as mobile device 16in FIG. 1. The replay sequence may be displayed at a particular playbackrate (or replay rate). The particular playback rate may depend on thetype of replay triggering event and/or the type of live event (e.g., areplay associated with a hockey game with a fast-moving hockey puck mayrequire a slower replay rate than a replay associated with a golftournament). In some embodiments, the replay sequence may comprise ashared replay sequence in which a plurality of mobile devices associatedwith end users attending the live event may interact with each otherwhile sharing the replay sequence. In some cases, a controlling mobiledevice (or master device) of the plurality of mobile devices may providethe replay time frame, the replay sequence, and a synchronization signalfor beginning the display of the replay sequence. One embodiment of aprocess for displaying a replay sequence is described later in referenceto FIG. 6E.

In step 618, a first region of the first video feed is determined. Thefirst region may correspond with a zoomed-in region of the first videofeed. The first region may be determined by an end user of a mobiledevice via one or more finger gestures applied to a touchscreeninterface of the mobile device. In step 620, the first region of thefirst video feed is displayed. The first region of the first video feedmay be displayed on a display of a mobile device, such as mobile device16 and FIG. 1. The first video feed may comprise a real-time or livevideo feed of a live event.

FIG. 6B is a flowchart describing one embodiment of a process fordetermining a first video feed of a plurality of video feeds to bedisplayed on a mobile device. The process described in FIG. 6B is oneexample of a process for implementing step 606 in FIG. 6A. In oneembodiment, the process of FIG. 6B is performed by a mobile device, suchas mobile device 16 in FIG. 1.

In step 622, a source location within a venue is determined. The sourcelocation may correspond with a location of a desired camera location orviewpoint. In one embodiment, the source location may be determined froma GPS location associated with a mobile device within the venue. Inanother embodiment, an end user of a mobile device within the venue mayselect the source location (or target location) using a user interfaceof the mobile device. In another embodiment, an end user of the mobiledevice may take a picture of where they are sitting at the venue and thesource location may be estimated using image recognition techniques.

In step 624, a target location within the venue is determined. Thetarget location may correspond with a location within the venue to beviewed from the desired camera location or viewpoint. In someembodiments, the target location may correspond with a particular objectwithin the venue, such as a particular player participating in a liveevent at the venue, a ball, or a hockey puck. The target location maycorrespond with a particular region within the venue, such as an endzone for a football game, an infield for a baseball game, or aparticular green for a golf tournament. In some embodiments, a venuehosting a live event may be partitioned into a plurality of targetregions (e.g., a football field may be partitioned into four regions,each region corresponding with a quarter of the football field) and thetarget location may be used to determine a particular target regionwithin the venue that includes the target location.

In some cases, the target location (or target region including thetarget location) may be determined based on the viewing behavior of agroup of end users using one or more group devices at a live event. Forexample, the target region may correspond with a particular regionwithin the venue (e.g., an end zone or a first quarter of a field) thatis viewed by the largest number of end users of the group of end usersat a particular time during the live event.

In step 626, a requested viewing vector is determined based on thesource location and the target location. The requested viewing vectormay be anchored at the source location and have a vector directiondirected towards the target location from the source location. In step628, a plurality of feed vectors associated with a plurality of videofeeds is acquired. The plurality of video feeds may be transmitted via ahead end, such as head end 12 in FIG. 1. Each video feed of theplurality of video feeds may be associated with a particular feedvector. Each feed vector may comprise a camera location and a cameradirection (or viewing direction). In some embodiments, each video feedof the plurality of video feeds may be associated with a field of viewwidth, a field of view height, and/or one or more viewing angles, whichalong with a feed vector may be used to describe the field of viewcaptured by a particular camera at the venue.

In step 630, a first feed vector of the plurality of feed vectors isdetermined based on the requested viewing vector determined in step 626.The first feed vector may correspond with a first video feed of theplurality of video feeds. In some embodiments, the first feed vector maycorrespond with the feed vector of the plurality of feed vectors thatbest approximates or most closely matches the requested viewing vector.In one embodiment, a first set of feed vectors of the plurality of feedvectors is determined based on a target region around the targetlocation determined in step 624. In one example, each feed vector of theplurality of feed vectors that projects through the target region may beplaced into the first set of feed vectors. The first feed vector maythen correspond with the feed vector of the first set of feed vectorsthat minimizes an error angle with respect to the requested viewingvector. In step 632, an identification of the first video feed isoutputted.

FIG. 6C is a flowchart describing one embodiment of a process forautomatically buffering one or more video feeds. The process describedin FIG. 6C is one example of a process for implementing step 608 in FIG.6A. In one embodiment, the process of FIG. 6C is performed by a mobiledevice, such as mobile device 16 in FIG. 1.

In step 642, a maximum number of video feeds to be buffered concurrentlyis determined. The maximum number of video feeds to be bufferedconcurrently may depend upon energy, power, and/or storage constraintsplaced on a mobile device. The maximum number of video feeds to bebuffered concurrently may vary over time based on a context associatedwith a live event. In one example, when the sound volume of a crowd ofspectators at the live event exceeds a particular threshold, then themaximum number of video feeds may be increased (i.e., the excitementlevel of the crowd may warrant the buffering of a larger number of videofeeds at the expense of a higher power and energy consumption). Inanother example, the maximum number of video feeds may be increased whena live sporting event reaches a particular milestone (e.g., the twominute warning in football or the ninth inning in baseball). In anotherexample, the maximum number of video feeds to be buffered may beincreased when a tracked object (e.g., a football) is located within aparticular region of a venue (e.g., the last 20 yards before an end zoneand the end zone). The maximum number of video feeds to be bufferedconcurrently may be set locally on a mobile device or set via a timeadjustable flag sent via a head end, such as head end 12 in FIG. 1.

In step 644, a plurality of feed vectors associated with a plurality ofvideo feeds is acquired. The plurality of feed vectors may betransmitted via a head end, such as head end 12 in FIG. 1. Each feedvector of the plurality of feed vectors may correspond with a cameralocation and a camera direction (or viewing direction). In someembodiments, additional field of view information associated with eachfeed vector, such as a field of view width, a field of view height,and/or one or more viewing angles, may be acquired along with theplurality of feed vectors. The additional field of view information mayprovide a better estimate of the field of view captured by a particularcamera at the venue.

In step 646, a first feed vector is determined. The first feed vectormay be associated with a first video feed of the plurality of videofeeds being displayed on a mobile device. In step 648, one or morecomplementary feed vectors of the plurality of feed vectors aredetermined based on the first feed vector. In one embodiment, the one ormore complementary feed vectors may correspond with other cameras at avenue that provide a different angle or different field of viewdirection to a target point (or target region) within the venue. In oneexample, the one or more complementary feed vectors include a reversefeed vector corresponding with a field of view that is 180 degreesrelative to the first feed vector. The one or more complementary feedvectors may also include vectors corresponding with a field of viewsthat are perpendicular to the first feed vector (e.g., feed vectors thatare 90 degrees and/or 270 degrees relative to the first feed vector).

In step 650, one or more group devices associated with a group ofspectators at a venue are determined. In one embodiment, the one or moregroup devices may include a number of mobile computing devices within aparticular area of the venue. For example, the one or more group devicesmay comprise mobile devices within a particular seating section at thevenue.

In one embodiment, the one or more group devices may be determined basedon various characteristics of the one or more end users of the one ormore group devices. The various characteristics may include a physicallocation associated with each of the group members (e.g., each of thegroup members may be located within a particular seating section of thevenue), one or more common interests (as provided in user profilesassociated with each of the group members), and/or a degree of closenessassociated with a social graph or social networking graph. In someembodiments, the social graph may be associated with a particular socialnetworking service such as Facebook, LinkedIn, or Twitter.

In step 652, one or more group feed vectors of the plurality of feedvectors associated with video feeds being displayed on the one or moregroup devices are acquired. In one embodiment, at a particular point intime (or at predefined time intervals), each mobile device of the one ormore group devices may transmit a video feed identification associatedwith a video feed being displayed on the mobile device at the particularpoint in time. The video feed identification may be used to identify afeed vector using a video feed identification to feed vector mappingtable acquired from a head end or a map of the venue acquired from ahead end including camera location and direction information.

In step 654, the one or more group feed vectors are ranked. In oneembodiment, the one or more group feed vectors are ranked according topopularity of each of the one or more group feed vectors. In oneexample, the one or more group feed vectors are ranked based on thefrequency of displaying by the one or more group devices within aparticular period of time. In some embodiments, end user preferences(e.g., specified in a user profile) may also be taken into account whenranking the one or more group feed vectors. In one example, an end userpreference may include a preference (or weighting) for end zone cameraangles. In step 656, one or more video feeds to be buffered aredetermined based on the maximum number of video feeds to be buffered. Inone embodiment, the one or more video feeds to be buffered maycorrespond with the highest ranking feed vectors of the one or moregroup feed vectors (e.g., the top 15 feed vectors of the one or moregroup feed vectors).

In some embodiments, the one or more video feeds may include a first setof video feeds associated with the one or more complementary feedvectors determined in step 648 and a second set of video feedsassociated with a subset of the one or more group feed vectors acquiredin step 652. Thus, the one or more video feeds to be buffered may bedetermined based on the viewing behavior of an end user of a mobiledevice and/or the viewing behaviors of a group of other end users usingother mobile devices at the live event. In step 658, the one or morevideo feeds to be buffered are buffered. The one or more video feeds maybe concurrently buffered on a mobile device, such as mobile device 16 inFIG. 1. In some cases, along with each video feed buffered on the mobiledevice, a video feed identifier and timing information correspondingwith the video feed may be buffered.

FIG. 6D is a flowchart describing one embodiment of a process fordetermining a replay sequence. The process described in FIG. 6D is oneexample of a process for implementing step 614 in FIG. 6A. In oneembodiment, the process of FIG. 6D is performed by a mobile device, suchas mobile device 16 in FIG. 1.

In step 672, a replay time frame is acquired. The replay time frame maybe acquired from a head end, such as head end 12 in FIG. 1, or from asecond mobile device located within a venue. In some cases, the replaytime frame may be preset to a predetermined time (e.g., 30 seconds priorto the replay triggering event). The replay time frame may depend upon areplay triggering event detected. For example, the replay time frame fora replay corresponding with the end of a play in football may be 30seconds, while the replay time frame for a replay corresponding with theend of a quarter in football may be 1 minute.

In step 674, a first sequence of video feeds displayed on a first devicecorresponding with the replay time frame is determined. The first devicemay correspond with a mobile device used by an end user at the venue andthe first sequence of video feeds may correspond with the sequence ofvideo feeds that were viewed by the end user during the replay timeframe.

In step 676, one or more group devices associated with a group ofspectators at a venue are determined. In one embodiment, the one or moregroup devices may include a number of mobile computing devices within aparticular area of the venue. For example, the one or more group devicesmay comprise a group of mobile device within a particular seatingsection at the venue.

In one embodiment, the one or more group devices may be determined basedon various characteristics of the one or more end users of the one ormore group devices. The various characteristics may include a physicallocation associated with each of the group members (e.g., each of thegroup members may be located within a particular seating section of thevenue), one or more common interests (as provided in user profilesassociated with each of the group members), and/or a degree of closenessassociated with a social graph or social networking graph. In someembodiments, the social graph may be associated with a particular socialnetworking service such as Facebook, LinkedIn, or Twitter.

In some embodiments, the one or more common interests may be inferredbased on demographic information including the gender and age of each ofthe group members. The one or more common interests may also include anaffinity for a particular team (e.g., a football team) or varioussporting events (e.g., football playoffs or baseball spring training) asspecified in user profiles associated with each of the group members.

In step 678, one or more group sequences associated with video feedsbeing displayed on the one or more group devices during the replay timeframe are determined. The one or more group sequences may correspondwith the sequences of video feeds that were viewed by end users of theone or more group devices during the replay time frame. In step 680, oneor more time periods corresponding with the replay time frame aredetermined. In one embodiment, the replay time frame may be segmentedinto a predetermined number of time periods. The segmentation of thereplay time frame may be used to filter a sequence of video feeds and toprovide a smooth transition from a first video feed of the sequence ofvideo feeds to a second video feed of the sequence of video feeds. Inone example, the replay time frame may be segmented or divided into 15seconds time periods. In another embodiment, rather than segmenting thereplay time frame into one or more time periods, a moving average may beused to filter a sequence of video feeds to be displayed during areplay.

In step 682, one or more video feeds corresponding with the one or moretime periods are determined based on the first sequence of video feedsdetermined in step 674 and the one or more group sequences determined instep 678. Thus, the one or more video feeds associated with a replaysequence may be determined based on the viewing behavior of an end userof a mobile device and/or the viewing behaviors of a group of other endusers using other mobile devices at the venue.

In one embodiment, each video feed of the one or more video feeds maycorrespond with a different time period of the one or more time periods.Each video feed of the one or more video feeds may correspond with thevideo feed that was most frequently displayed during its correspondingtime period. In some embodiments, each video feed of the one or morevideo feeds may be determined by computing a weighted average of themost frequently displayed video feeds during its corresponding timeperiod (e.g., video feeds associated with the first sequence of videofeeds viewed by the end user may be more heavily weighted).

In step 684, a replay sequence is outputted. The replay sequence mayinclude an identification of each of the one or more video feeds with acorresponding time period of the one or more time periods. As the videofeeds associated with the replay sequence have already been buffered onmobile devices at the venue by the time the replay sequence isoutputted, only an identification of each of the one or more video feedsin the replay sequence may be transmitted or broadcast to a particulargroup of mobile devices to which the replay sequence is to be displayed.Thus, in some embodiments, the video feeds associated with the replaysequence are not rebroadcast to a plurality of mobile devices, butinstead video feeds that have already been buffered on each of theplurality of mobile devices individually are replayed based on atransmission of a replay sequence comprising identifications of each ofthe one or more video feeds to be replayed. In some cases, a controllingmobile device (or master device) of the plurality of mobile devices mayprovide the replay time frame, the replay sequence, and asynchronization signal for beginning the display of the replay sequence.

In some embodiments, each of the mobile devices within a group of mobiledevices may periodically transmit (e.g., every 5 seconds) a video feedidentification associated with a video feed being displayed on themobile device. Thus, a mobile device of the group of mobile devices mayperiodically receive video feed identification information associatedwith each of the mobile devices within the group of mobile devices. Assuch, the replay sequence may be determined locally on each mobiledevice without acquiring additional communication between the group ofmobile devices. The replay synchronization signal and the replay timeframe may be transmitted to the group of mobile devices via acontrolling mobile device of the group of mobile devices.

FIG. 6E is a flowchart describing one embodiment of a process fordisplaying a replay sequence. The process described in FIG. 6E is oneexample of a process for implementing step 616 in FIG. 6A. In oneembodiment, the process of FIG. 6E is performed by a mobile device, suchas mobile device 16 in FIG. 1.

In step 691, one or more buffered video feeds are automaticallybuffered. The one or more buffered video feeds may be automaticallybuffered based on the viewing behavior of an end user of a mobile deviceand/or the viewing behaviors of a group of other end users using othermobile devices at a live event. In step 692, a replay triggering eventis detected. In one example, the replay triggering event may be detectedvia a replay flag transmitted from a head end, such as head end 12 inFIG. 1. In another example, the replay triggering event may be detectedbased on a game clock being stopped or paused during a live sportingevent.

In step 693, a replay time frame and a replay playback rate aredetermined. The replay time frame and the replay playback rate may beset prior to a replay triggering event by an end user of a mobile deviceor via a controlling mobile device within a group of mobile devices. Instep 694, a sequence of video feeds displayed on a controlling deviceduring the replay time frame is determined. In one embodiment, thecontrolling device may transmit video feed identifiers correspondingwith the sequence of video feeds. In step 695, the replay time frame maybe segmented into one or more time periods. In one embodiment, thereplay time frame may be segmented into 5 second time periods. In thiscase, transitions between different video feeds will occur at most every5 seconds.

In step 696, for each of the one or more time periods, a best-fit videofeed of the one or more buffered video feeds is determined based on thesequence of video feeds displayed on the controlling device. In oneembodiment, for each of the one or more time periods, a particular videofeed of the sequence of video feeds is determined based on the mostpopular video feed displayed on the controlling device during theparticular time period. Once the particular video feed is determined,then a best-fit video feed of the one or more buffered video feedsbuffered on a mobile device may be determined by comparing a particularvideo feed vector associated with the particular video feed with eachfeed vector associated with each of the one or more buffered video feedsand determining the closest match to the particular video feed. Thebest-fit video feed may differ from the particular video feed if theparticular video feed was not selected as one of the video feeds thatwere automatically buffered on the mobile device during the replay timeframe.

In step 697, a first video feed corresponding with a best-fit video feedis displayed at the replay playback rate. In step 698, a live playtriggering event is detected. In one embodiment, the live playtriggering event may correspond with the beginning of or restarting ofthe game clock at a live sporting event. In step 699, a live actionvideo feed is displayed in response to the live play triggering event.Upon detection of the live play triggering event, a mobile device maystop displaying the replay videos and automatically return to a liveaction video feed.

FIG. 7A is a flowchart describing one embodiment of a process forselectively buffering and displaying video feeds based on the viewingbehavior of a group of end users associated with a group of mobiledevices at a live event. In one embodiment, the process of FIG. 7A isperformed by a mobile device, such as mobile device 16 in FIG. 1.

In step 702, one or more video feeds associate with a live event areacquired. The one or more video feeds may be received from a head end,such as head end 12 in FIG. 1. Each of the one or more video feeds maycorrespond with images associated with a particular camera at the liveevent. In step 704, it is determined whether to concurrently buffer atleast a subset of the one or more video feeds. In some cases, a mobiledevice may not buffer any of the one or more video feeds. In oneexample, a prolonged period of delay between portions of a live sportingevent (e.g., during halftime of a football game) or inactivity by an enduser of a mobile device for a prolonged period of time (e.g., the enduser has not looked at or operated the mobile device for a period oftime) may cause the mobile device to enter into a non-buffering state inorder to conserve battery lifetime.

In step 706, one or more group devices associated with a group ofspectators at the live event are determined. In one embodiment, the oneor more group devices may include a number of mobile computing deviceswithin a particular area of a venue hosting the live event. For example,the one or more group devices may comprise mobile devices located withina particular seating section at the venue.

In one embodiment, the one or more group devices may be determined basedon various characteristics of the one or more end users of the one ormore group devices. The various characteristics may include a physicallocation associated with each of the group members (e.g., each of thegroup members may be located within a particular seating section of thevenue), one or more common interests (as provided in user profilesassociated with each of the group members), and/or a degree of closenessassociated with a social graph or social networking graph.

In step 708, one or more video feed identifications corresponding withvideo feeds being displayed on the one or more group devices areacquired. The one or more video feed identifications may be acquiredfrom an aggregation server which aggregates video feed identificationsfrom the one or more group devices as the one or more group devicesdisplay the corresponding video feeds. The one or more video feedidentifications may also be acquired directly from each of the one ormore group devices as the one or more group devices displaycorresponding video feeds.

In step 710, the one or more video feeds are ranked based on the one ormore video feed identifications. In one embodiment, the one or morevideo feeds are ranked based on the popularity of or the frequency ofthe video feeds displayed on the one or more group devices. In step 712,a first set of the one or more video feeds are buffered based on theranking of the one or more video feeds. In step 714, a first video feedof the first set of the one or more video feeds is displayed. The firstvideo feed may be displayed on a mobile device, such as mobile device 16in FIG. 1.

FIG. 7B is a flowchart describing one embodiment of a process forselectively buffering and displaying video feeds based on objecttracking information. In one embodiment, the process of FIG. 7B isperformed by a mobile device, such as mobile device 16 in FIG. 1.

In step 722, a map of a venue associate with a live event is acquired.The map of the venue may be acquired from a head end, such as head end12 in FIG. 1. In step 724, a first object to track during the live eventis determined. The first object may comprise a particular playerparticipating in the live event or an object associated with the liveevent (e.g., a soccer ball or hockey puck). In step 726, a location ofthe first object relative to the map is acquired. The location of thefirst object may be specified via a wireless transmission from the headend. In step 728, one or more video feeds of the live event areacquired. The one or more video feeds may be acquired via a wirelesstransmission from the head end. The one or more video feeds maycorrespond with one or more fields of view. Each of the one or morefields of view may correspond with a particular camera capturing videoinformation at the live event.

In step 732, a first set of the one or more video feeds is determined.Each video feed of the first set may include the location of the firstobject within its field of view. In this case, each video feed of thefirst set includes the first object within its field of view. In step734, one or more group devices associated with a group of spectators atthe live event are determined. In step 736, one or more video feedidentifications corresponding with video feeds being displayed on theone or more group devices are acquired. In step 738, the first set ofthe one or more video feeds is ranked based on the one or more videofeed identifications. In step 740, a subset of the first set is bufferedbased on the ranking of the first set. In step 742, a first video feedof the first set is displayed. The first video feed may be displayed ona mobile device, such as mobile device 16 in FIG. 1.

FIG. 7C is a flowchart describing one embodiment of a process sharingvideo feed information, audio information, and supplemental informationbetween mobile devices at a live event. In one embodiment, the processof FIG. 7B is performed by a mobile device, such as mobile device 16 inFIG. 1.

In step 752, it is determined whether to allow a second device tocontrol a display of a first device. The first device may enter into asubservient relationship with the second device with respect to thedisplay of live video feeds and/or video feeds associated with a replaysequence upon approval by an end user of the first device. Allowing thesecond device to control what is displayed and/or buffered on the firstdevice allows an end user of the first device to view the live event onthe first device without having to actively operate the first device. Instep 754, one or more video feeds associated with a live event areacquired by the first device. In step 756, a video feed identificationcorresponding with a video feed of the one or more video feeds beingdisplayed on the second device is acquired. The video feedidentification may be transmitted to the first device via a head end,such as head end 12 in FIG. 1, or directly from the second device via awireless connection (e.g., a WiFi connection).

In step 758, a viewing range associated with the video feed beingdisplayed on the second device is acquired. The viewing range maycorrespond with a zoomed-in region of the video feed as displayed on thesecond device. The viewing range may be specified using rectangularcoordinates (e.g., a lower-left coordinate and an upper-right coordinateof the viewing range). In step 760, it is determined whether the firstdevice should enter into an interactive shared relationship with thesecond device. In step 762, audio information is acquired from thesecond device. The audio information may correspond with audiocommentary from a second end user of the second device. In step 764,supplemental information is acquired from the second device. Thesupplemental information may correspond with written comments and/orevent-related diagrams (e.g., gameplay diagrams) generated by the secondend user of the second device.

In step 766, the video feed, the audio information, and the supplementalinformation are buffered on the first device. In step 768, the viewingrange of the video feed is displayed on the first device. In this case,not only is the video feed being displayed on the first device, but thezoomed-in region being displayed on the second device is also beingdisplayed on the first device. In step 770, the supplemental informationis displayed on the first device overlaying the viewing range of thevideo feed. In one example, the supplemental information may compriseshared commentary, such as shared comment 587 in FIG. 5F.

FIG. 8 is a flowchart describing one embodiment of a process controllinga replay sequence displayed on another mobile device. In one embodiment,the process of FIG. 8 is performed by a mobile device, such as mobiledevice 16 in FIG. 1.

In step 802, it is determined whether to share a replay sequence with asecond device. The second device may comprise a mobile device differentfrom a controlling mobile device. In step 804, the replay sequence isdetermined. The replay sequence may be determined based on behavioralanalysis of the viewing habits of a group of end users at a live event.The replay sequence may correspond with a replay time frame. The replaytime frame may be segmented into one or more time periods. In step 806,one or more video feed identifiers associated with the replay sequenceare transmitted to the second device.

In step 808, for each of the one or more video feed identifiers, acorresponding time period of the one or more time periods is transmittedto the second device. In step 810, a first replay rate (or replayplayback rate) is transmitted to the second device. In step 812, areplay start signal is transmitted to the second device. In step 814,supplemental information is transmitted to the second device. In step816, a second replay rate different from the first replay rate istransmitted to the second device. In this case, the replay rateassociated with the replay sequence may be adjusted over time bytransmitting an updated replay rate to the second device. In step 818, areplay stop signal is transmitted to the second device. In this case,the display of the replay sequence may be started on the second devicevia the replay start signal and stopped on the second device via thereplay stop signal.

FIG. 9 is a flowchart describing one embodiment of a process for settinga target camera or target viewing angle using a smart gesture. In oneembodiment, the process of FIG. 9 is performed by a mobile device, suchas mobile device 16 in FIG. 1.

In step 902, a map of a venue associated with a live event is acquired.The map of the venue may comprise a three-dimensional model of thevenue. In step 904, a smart gesture is detected. The smart gesture maycomprise a particular physical gesture such as orienting a mobile deviceand then flicking (or making a sudden movement) the mobile deviceforward by a particular amount. The smart gesture may also comprise astatic gesture involving pointing a mobile device in a particulardirection. In some embodiments, the smart gesture may comprise acombination of static gestures and dynamic gestures (e.g., particularmovements of the mobile device). In step 906, a location associated withthe smart gesture is determined relative to the map. In one embodiment,the location associated with the smart gesture may be determined byacquiring GPS location information from the mobile device with which thesmart gesture was performed.

In step 908, a pointing vector associated with the smart gesture isdetermined relative to the map. In one embodiment, the pointing vectormay be determined by acquiring velocity information, accelerationinformation, and/or orientation information from the mobile device withwhich the smart gesture was performed. The mobile device may include aninertial measurement unit (IMU) in order to provide the velocityinformation, acceleration information, and/or orientation informationassociated with the mobile device. In step 910, a target cameracorresponding with the smart gesture is determined based on the locationdetermined in step 906 and the pointing vector determined in step 908.In one embodiment, the target camera may correspond with a camera at thelive event that is positioned closest to the direction of the smartgesture based on the location and the pointing vector. A smart gesturemay be used for selecting a source location (e.g., a particular camera)or for selecting a target location (e.g., a particular area of a playingfield such as an end zone at a football game).

In step 912, an event state associated with the live event isdetermined. The event state may be used to determine whether action at alive sporting event is currently occurring or if there is a break in theaction (e.g., a break in the live action due to a timeout). In oneembodiment, the event state may correspond with a game clock of a livesporting event. For example, if the game clock is ticking, then theaction may be deemed to be currently occurring. On the other hand, ifthe game clock is not ticking (or is stopped), then the action may bedeemed to not be currently occurring. The event state may be used todetermine whether a live video feed or a replay video feed is displayedon a mobile device. In one example, if a timeout or other break in theaction is occurring, then a replay video may be presented on a mobiledevice. Otherwise, if there is not a break in the action, then a liveaction video may be presented on the mobile device.

In step 914, it is determined whether to play a portion of the bufferedvideo feed associated with the target camera based on the event state.In one embodiment, the event state may be associated with a break in theaction at a live sporting event (e.g., a commercial break). During abreak in the action, a replay may be displayed on a mobile devicecorresponding with the portion of the buffered video feed associatedwith the target camera. On the other hand, if the event state is notassociated with a break in the action, then a replay may not bedisplayed on the mobile device. In some embodiments, the smart gesturedetected in step 904 may be used to control both the target cameraassociated with the display of a live video feed and the target cameraassociated with the display of a replay. In step 916, the portion of thebuffered video feed associated with the target camera is displayedduring a replay sequence.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of a live event as the live event occurs,acquiring viewing information associated with one or more group devicesat the live event, configuring the mobile device to display at least aportion of a first video feed of the plurality of video feeds based onthe viewing information, and displaying on the mobile device the atleast a portion of the first video feed.

One embodiment of the disclosed technology comprises a mobile deviceincluding a receiver, one or more processors, and a display. Thereceiver receives a plurality of video feeds of the live event as thelive event occurs and receives viewing information associated with oneor more group devices at the live event. The one or more group devicesinclude a second computing device different from the mobile device. Theone or more processors configure the mobile device to display at least aportion of a first video feed of the plurality of video feeds based onthe viewing information. The display displays the at least a portion ofthe first video feed.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of a live event as the live event occurs,determining one or more group devices at the live event, acquiringviewing information associated with the one or more group devices,buffering one or more video feeds of the plurality of video feeds on themobile device, determining a first video feed of the one or more videofeeds based on the viewing information associated with the one or moregroup devices, and displaying on the mobile device at least a portion ofthe first video feed.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of a live event as the live event occurs,determining a location of the mobile device within a venue hosting thelive event, determining a target region within the venue, determining afirst video feed of the plurality of video feeds based on the locationof the mobile device and the target region, and displaying on the mobiledevice at least a portion of the first video feed.

One embodiment of the disclosed technology comprises a mobile deviceincluding a receiver, one or more processors, and a display. Thereceiver receives a plurality of video feeds of a live event as the liveevent occurs. The one or more processors determine a location of themobile device within a venue hosting the live event and determine atarget region within the venue. The one or more processors determine afirst video feed of the plurality of video feeds based on the locationof the mobile device and the target region. The display displays atleast a portion of the first video feed.

One embodiment of the disclosed technology includes acquiring a map of avenue associated with a live event, determining a first object to trackduring the live event, acquiring an object location of the first objectrelative to the map, determining a target region within the venue basedon the object location, determining a location of the mobile devicerelative to the map, acquiring a plurality of video feeds of the liveevent as the live event occurs, determining a first video feed of theplurality of video feeds based on the location of the mobile device andthe target region, and displaying on the mobile device at least aportion of the first video feed.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of a live event as the live event occurs,detecting a physical gesture using the mobile device, configuring themobile device to display at least a portion of a first video feed of theplurality of video feeds based on the physical gesture, and displayingon the mobile device the at least a portion of the first video feed.

One embodiment of the disclosed technology comprises a mobile deviceincluding a receiver, one or more processors, and a display. Thereceiver receives a plurality of video feeds of the live event as thelive event occurs. The one or more processors detect a physical gestureusing the mobile device and configure the mobile device to display atleast a portion of a first video feed of the plurality of video feedsbased on the physical gesture in response to detecting the physicalgesture. The display displays the at least a portion of the first videofeed.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of a live event as the live event occurs,buffering the plurality of video feeds on the mobile device, detecting aphysical gesture involving the mobile device, determining a targetcamera corresponding with the physical gesture, determining an eventstate associated with the live event, determining whether to display aportion of a buffered video feed of the plurality of video feedsassociated with the target camera based on the event state, anddisplaying on the mobile device the portion of the buffered video feedassociated with the target camera.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of the live event as the live event occurs,buffering one or more video feeds of the plurality of video feeds on amobile device, determining one or more group devices at the live event,acquiring viewing information associated with the one or more groupdevices, detecting a replay triggering event, determining a replay timeframe, and determining a replay sequence based on the viewinginformation associated with the one or more group devices. The replaysequence includes a first buffered video feed of the one or more videofeeds. The method further includes displaying on the mobile device thereplay sequence.

One embodiment of the disclosed technology comprises a mobile deviceincluding a receiver, a memory, one or more processors, and a display.The receiver receives a plurality of video feeds of the live event asthe live event occurs. The memory stores a map of a venue associatedwith the live event. The map includes field of view informationassociated with a first video feed of the plurality of video feeds. Thefield of view information associated with the first video feed includesa first location and a first direction relative to the map of the venue.The one or more processors select the first video feed based on thefirst location and the first direction relative to the map of the venue,and determine one or more video feeds of the plurality of video feeds tobe concurrently buffered on the mobile device. The one or more videofeeds include the first video feed. The one or more processors detect areplay triggering event, determine a replay time frame in response todetecting the replay triggering event, and determine a replay sequencein response to detecting the replay triggering event based on theviewing behaviors of a group of other end users using other mobiledevices at the live event. The display displays the replay sequence.

One embodiment of the disclosed technology includes acquiring aplurality of video feeds of the live event as the live event occurs anddetermining one or more group devices at the live event. The determiningone or more group devices includes determining the one or more groupdevices based on a physical location of each of the one or more groupdevices at the live event. The method further includes buffering one ormore video feeds of the plurality of video feeds on a mobile device,acquiring viewing information associated with the one or more groupdevices, determining a first video feed of the plurality of video feedsbased on the viewing information associated with the one or more groupdevices, and displaying on the mobile device the first video feed.

One embodiment of the disclosed technology includes acquiring one ormore video feeds associated with the live event, determining one or moregroup devices associated with a group of spectators at the live event,acquiring one or more video feed identifications corresponding withvideo feeds displayed on the one or more group devices, ranking the oneor more video feeds based on the one or more video feed identifications,and automatically buffering a first set of the one or more video feedsbased on the ranking of the one or more video feeds.

One embodiment of the disclosed technology comprises a mobile deviceincluding a receiver, one or more processors, and a memory buffer. Thereceiver receives a plurality of video feeds of the live event as thelive event occurs. The one or more processors determine one or moregroup devices associated with a group of spectators at the live event,acquire one or more video feed identifications corresponding with videofeeds displayed on the one or more group devices, rank the plurality ofvideo feeds based on the one or more video feed identifications, anddetermine a first set of the plurality of video feeds based on theranking of the plurality of video feeds. The memory buffer stores thefirst set of the plurality of video feeds.

One embodiment of the disclosed technology includes acquiring a map of avenue associated with the live event, determining a first object totrack during the live event, acquiring a location of the first objectrelative to the map, acquiring one or more video feeds of the liveevent, the one or more video feeds correspond with one or more fields ofview, determining a first set of the one or more video feeds, each videofeed of the first set includes the location of the first object withinits field of view, determining one or more group devices associated witha group of spectators at the live event, acquiring one or more videofeed identifications corresponding with video feeds displayed on the oneor more group devices, ranking the first set of the one or more videofeeds based on the one or more video feed identifications, andautomatically buffering a subset of the first set based on the rankingof the first set.

One embodiment of the disclosed technology includes acquiring a map of avenue associated with a live event, detecting the physical gesture,determining a location associated with the physical gesture relative tothe map, determining a pointing vector associated with the physicalgesture relative to the map, determining a target camera correspondingwith the physical gesture based on the location and a pointing vector,determining an event state associated with the live event, determiningwhether to play a portion of a buffered video feed associated with thetarget camera based on the event state, and displaying the portion ofthe buffered video feed associated with the target camera.

One embodiment of the disclosed technology includes determining acontrolling device of a mobile device, receiving one or more video feedsassociated with the live event at the mobile device, acquiring a videofeed identification corresponding with a video feed of the one or morevideo feeds displayed on the controlling device, acquiring a viewingrange associated with the video feed being displayed on the controllingdevice, buffering the video feed, and displaying the viewing range ofthe video feed.

One embodiment of the disclosed technology includes determining one ormore group devices associated with a group of spectators at the liveevent, acquiring a plurality of video feeds associated with the liveevent, acquiring one or more video feed identifications correspondingwith one or more video feeds displayed on the one or more group devices,determining a video feed of the plurality of video feeds based on theone or more video feed identifications, acquiring supplementalinformation from the one or more group devices, buffering the video feedand the supplemental information, displaying the video feed on themobile device, and displaying on the mobile device the supplementalinformation overlaying the video feed.

For purposes of this document, each process associated with thedisclosed technology may be performed continuously and by one or morecomputing devices. Each step in a process may be performed by the sameor different computing devices as those used in other steps, and eachstep need not necessarily be performed by a single computing device.

For purposes of this document, reference in the specification to “anembodiment,” “one embodiment,” “some embodiments,” or “anotherembodiment” are used to described different embodiments and do notnecessarily refer to the same embodiment.

For purposes of this document, a connection can be a direct connectionor an indirect connection (e.g., via another part).

For purposes of this document, the term “set” of objects, refers to a“set” of one or more of the objects.

Although the subject matter has been described in language specific tostructural features and/or methodological acts, it is to be understoodthat the subject matter defined in the appended claims is notnecessarily limited to the specific features or acts described above.Rather, the specific features and acts described above are disclosed asexample forms of implementing the claims.

What is claimed is:
 1. A method for automatically displaying video on amobile device, comprising: acquiring a plurality of video feeds of alive event as the live event occurs; buffering one or more video feedsof the plurality of video feeds on the mobile device, the buffering oneor more video feeds includes determining a maximum number of video feedsto be buffered concurrently based on a sound volume associated with thelive event and concurrently buffering the one or more video feeds on themobile device; acquiring viewing information associated with one or moregroup devices at the live event; automatically configuring the mobiledevice to display at least a portion of a first video feed of theplurality of video feeds based on the viewing information; anddisplaying on the mobile device the at least a portion of the firstvideo feed.
 2. The method of claim 1, wherein: the automaticallyconfiguring the mobile device includes detecting a replay triggeringevent and determining a replay sequence based on the viewing informationin response to the replay triggering event; and the replay sequenceincludes the at least a portion of the first video feed.
 3. The methodof claim 1, wherein: the one or more group devices include a secondmobile device different from the mobile device.
 4. The method of claim1, wherein: the viewing information associated with the one or moregroup devices includes one or more video feed identifications, the oneor more video feed identifications include an identification of thefirst video feed.
 5. The method of claim 1, further comprising:determining the one or more group devices based on a physical locationof each of the one or more group devices at the live event.
 6. Themethod of claim 1, further comprising: acquiring one or more commoninterests associated with one or more end users of the one or more groupdevices and determining the one or more group devices based on the oneor more common interests.
 7. The method of claim 1, further comprising:determining a degree of closeness associated with a social graph for oneor more end users of the one or more group devices and determining theone or more group devices based on the degree of closeness associatedwith the social graph.
 8. The method of claim 1, wherein: the bufferingone or more video feeds includes buffering the one or more video feedsbased on the viewing information.
 9. The method of claim 1, wherein: thebuffering one or more video feeds includes determining one or morecomplementary feed vectors and buffering a first set of video feeds ofthe one or more video feeds based on the complementary feed vectors. 10.The method of claim 1, wherein: the buffering one or more video feeds isperformed automatically without intervention by an end user of themobile device; and the automatically configuring the mobile device todisplay at least a portion of a first video feed is performedautomatically without intervention by the end user of the mobile device.11. The method of claim 2, wherein: the detecting a replay triggeringevent includes acquiring a game clock signal associated with the liveevent and detecting a pause in the game clock signal.
 12. The method ofclaim 2, wherein: the determining a replay sequence includes segmentinga replay time frame associated with the replay sequence into one or moretime periods and determining a replay video feed for each of the one ormore time periods.
 13. A mobile device for automatically displayingvideo associated with a live event, comprising: a receiver, the receiverconfigured to receive a plurality of video feeds of the live event asthe live event occurs, the receiver configured to receive viewinginformation associated with one or more group devices at the live event,the one or more group devices include a second computing devicedifferent from the mobile device; one or more processors incommunication with the receiver, the one or more processors configuredto determine a maximum number of video feeds to be buffered concurrentlybased on a sound volume associated with the live event, the one or moreprocessors configured to cause the mobile device to concurrently bufferone or more video feeds of the plurality of video feeds based on themaximum number of video feeds to be buffered concurrently, the one ormore processors configured to cause the mobile device to display atleast a portion of a first video feed of the one or more video feedsbased on the viewing information; and a display in communication withthe one or more processors, the display displays the at least a portionof the first video feed.
 14. The mobile device of claim 13, wherein: theone or more processors configured to cause the mobile device to displayat least a portion of the first video feed by determining a replaysequence based on the viewing information, the replay sequence includesthe at least a portion of the first video feed.
 15. The mobile device ofclaim 13, wherein: the viewing information associated with the one ormore group devices includes one or more video feed identifications, theone or more video feed identifications include an identification of thefirst video feed.
 16. The mobile device of claim 13, wherein: the one ormore processors configured to determine the one or more group devicesbased on a physical location of each of the one or more group devices atthe live event.
 17. A method for automatically displaying video on amobile device, comprising: acquiring a plurality of video feeds of alive event as the live event occurs; determining one or more groupdevices at the live event; acquiring viewing information associated withthe one or more group devices; buffering one or more video feeds of theplurality of video feeds on the mobile device; the buffering one or morevideo feeds includes determining a maximum number of video feeds to bebuffered concurrently based on a sound volume associated with the liveevent; determining a first video feed of the one or more video feedsbased on the viewing information associated with the one or more groupdevices; and displaying on the mobile device at least a portion of thefirst video feed.
 18. The method of claim 17, wherein: the determiningone or more group devices includes determining the one or more groupdevices based on a physical location of each of the one or more groupdevices at the live event.
 19. The method of claim 17, wherein: thedetermining a first video feed includes determining a replay sequencebased on the viewing information, the replay sequence includes the atleast a portion of the first video feed.
 20. The method of claim 19,wherein: the determining a first video feed includes detecting a replaytriggering event, the detecting a replay triggering event includesacquiring a game clock signal associated with the live event anddetecting a pause in the game clock signal.